92. In the figure shown, the cylinder and pulley turn without friction about stationary horizontal axles that pass through their centers. A light rope is wrapped around the cylinder, passes over the pulley, and has a 3.00-kg box suspended from its free end. There is no slipping between the rope and the pulley surface. The uniform cylinder has mass 5.00 kg and radius 40.0 cm. The pulley is a uniform disk with mass 2.00 kg and radius 20.0 cm. the box is released from rest and descends as the rope unwraps from the cylinder. Find the speed of the box when it has fallen 1.50 m. Cylinder Pulley Box
92. In the figure shown, the cylinder and pulley turn without friction about stationary horizontal axles that pass through their centers. A light rope is wrapped around the cylinder, passes over the pulley, and has a 3.00-kg box suspended from its free end. There is no slipping between the rope and the pulley surface. The uniform cylinder has mass 5.00 kg and radius 40.0 cm. The pulley is a uniform disk with mass 2.00 kg and radius 20.0 cm. the box is released from rest and descends as the rope unwraps from the cylinder. Find the speed of the box when it has fallen 1.50 m. Cylinder Pulley Box
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92
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Transcribed Image Text:92. In the figure shown, the cylinder and pulley turn without friction about stationary horizontal axles that pass through
their centers. A light rope is wrapped around the cylinder, passes over the pulley, and has a 3.00-kg box suspended from
its free end. There is no slipping between the rope and the pulley surface. The uniform cylinder has mass 5.00 kg and
radius 40.0 cm. The pulley is a uniform disk with mass 2.00 kg and radius 20.0 cm. the box is released from rest and
descends as the rope unwraps from the cylinder. Find the speed of the box when it has fallen 1.50 m.
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Pulley
Box
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